Abstract

This paper examines how climate change will affect both the level and timing of future electricity demand across Canada. Using an original dataset of hourly electricity demand across all Canadian provinces combined with household-level microdata on air conditioner ownership, we estimate temperature responsiveness including both the direct effect of temperature on demand for cooling services, as well as the indirect effect of increasing the stock of temperature-sensitive durables, such as air conditioners. We find only a small increase in total demand by end-century, although the result differs across provinces. The small aggregate result reflects the mitigating effect of rising temperature in a cold country such as Canada, whereby increases in electricity demand for air conditioning as summer temperatures rise is largely offset by reduced winter heating demand. Although we project limited change in overall electricity demand, we do project changes in the timing of demand, both seasonally and diurnally. In particular, we find seasonal peaks shift from winter to summer in most regions, as well as a large increase in intraday ramping requirements—the difference between minimum and maximum demand within a day—suggesting electricity systems of the future will place an even greater value on storage and flexibility.

Item Type:

MPRA Paper

Original Title:

Stretching the Duck's Neck: The effect of climate change on future electricity demand

Auffhammer, M. (2018). Climate adaptive response estimation: Short and long run impacts of climate change on residential electricity and natural gas consumption using big data. National Bureau of Economic Research Working Paper 24397.

Auffhammer, M., Baylis, P., and Hausman, C. H. (2017). Climate change is projected to have severe impacts on the frequency and intensity of peak electricity demand across the United States. Proceedings of the National Academy of Sciences, 114(8):1886–1891.

Wenz, L., Levermann, A., and Auffhammer, M. (2017). North–south polarization of European electricity consumption under future warming. Proceedings of the National Academy of Sciences, 114(38):E7910–E7918.